Techniques in vascular and interventional radiology
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Tech Vasc Interv Radiol · Sep 2017
ReviewTechniques and Devices for Catheter-Directed Therapy in Pulmonary Embolism.
The clinical presentation of a patient with acute pulmonary embolism (PE) can be classified into 3 categories: low-risk, submassive (presence of right heart strain), and massive (hemodynamic compromise). Massive PE is associated with high morbidity or mortality and typically treated with systemic intravenous thrombolysis. ⋯ Furthermore, endovascular treatment for patients with submassive PE has been of great interest due to the significantly increased mortality associated with right heart strain, and prospective clinical trials have demonstrated catheter-directed thrombolysis to decrease right heart strain earlier than systemic anticoagulation alone. This article describes available devices and endovascular techniques used to treat patients with massive and submassive acute PE.
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Tech Vasc Interv Radiol · Jun 2017
Regulation and Device Development: Tips for Optimizing Your Experience With the Food and Drug Administration.
Physician-inventors are in a unique position to identify unserved patient needs, and innovate solutions to clinical problems. These solutions may also have associated commercial opportunities. The logistics of developing these medical products, however, can seem a daunting task. ⋯ They have significant scientific and medical expertise, and mechanisms to both provide guidance, and also to consider novel approaches to product development and evidence development. Early interaction for routine and novel products alike can result in expedited and efficient development. This collaborative approach can be best practice to most expeditiously develop the next generation of products, getting them into the hands of US doctors and into the treatment of US patients.
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Tech Vasc Interv Radiol · Jun 2017
Editorial Historical ArticleInnovation in Interventional Radiology.
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Tech Vasc Interv Radiol · Mar 2017
ReviewDialysis Catheter Placement in Patients With Exhausted Access.
Patients with end-stage renal disease undergo renal transplant, peritoneal dialysis, or intermittent hemodialysis for renal replacement therapy. For hemodialysis, native fistulas or grafts are preferred but hemodialysis catheters are often necessary. Per KDOQI, the right jugular vein is the preferred vessel of access for these catheters. ⋯ In these patients with end-stage vascular access, unconventional routes of placement of dialysis catheters are needed. These methods include placing them by means of sharp recanalization, via a translumbar route directly into the inferior vena cava, and via transhepatic and transrenal routes. These difficult, but potentially lifesaving methods of gaining vascular access are reviewed in this article.
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The lymphatic system plays an important role in immune regulation, transport of metabolites, and fluid balance. The key circulatory role of the lymphatic system is to transport fluid from tissue back into the venous system via lymphovenous connections. Despite the centuries-old recognition of this key role, there has been poor understanding of lymphatic flow pathophysiology because of a lack of a simple reliable noninvasive clinical lymphatic imaging method. ⋯ Dynamic contrast MR lymphangiography has provided insight into understanding the pathophysiology of several pulmonary lymphatic flow disorders and provides guidance for interventional procedures. Another important development has been intranodal lymphangiogram, which has now replaced pedal lymphangiogram as the main lymphatic interventional modality, and which provides quick and reliable access to the central lymphatic ducts for interventional procedures. These new techniques have led to a resurgence in interest in the lymphatic system and the development of new treatments for patients with lymphatic flow disorders.